basic purse seine crew course learner`s guide

Transcription

basic purse seine crew course learner`s guide
BASIC
PURSE SEINE
CREW COURSE
LEARNER’S GUIDE
Contents
INTRODUCTION
4
Overview
4
General course information
4
SEAMANSHIP – PURSE SEINE OPERATIONS
5
Principles of purse seine gear
6
General operating principle
11
Setting and hauling procedures
12
Searching for schools of fish
15
Gear Maintenance
17
SEAMANSHIP – GENERAL OPERATIONS
19
Vessel layout
19
Prepare the vessel for sea
20
Berthing operations
22
Anchoring operations
26
ASSISTING WITH A NAVIGATIONAL WATCH
30
General duties
30
(COLREGS) - Rules of the road
31
Wheelhouse equipment
34
ROPE AND WIRE WORK
40
General
40
Types of rope
40
Rope Construction
40
Measuring, handling and maintaining rope and wire
42
Knots, bends, hitches
43
Splicing
47
2
NET WORK
51
Basic principles
51
Tools
51
Parts of netting
53
Knots used in nets
55
Preparing a net for repair
57
Sewing the hole
59
Putting in a patch
61
Strengthening, joining and hanging netting
63
3
INTRODUCTION
Overview
The Purse Seine Crew Learner‟s Guide was produced with the financial assistance of NZ Aid
and was developed by Grant Carnie through consultation with staff of the Secretariat of the
Pacific Community, the Forum Fisheries Agency, Kiribati Fisheries Training Centre and the
Kiribati Maritime Training Centre.
Resources from Australia, New Zealand and regional training materials were used as a
guideline to develop a Learner‟s Guide that is relevant to the tuna purse seine fishery in the
Western & Central Pacific region.
It has been designed to be a learning resource aid for Pacific Islanders who are undertaking
a basic introductory course to prepare them for work as a crew member on a purse seiner
operating in the Western & Central Pacific tuna purse seine fishery.
The contents of the Guide are aligned with the Basic Purse Seine Crew Course curriculum
that was also developed with the financial assistance of NZ Aid. Trainees undertaking a
course based on that curriculum will receive practically focussed training at a regional
training organisation specialising in fisheries and maritime training and the Learner‟s Guide
is to be used as a supplementary resource to that training.
General course information
There are no prescribed prerequisites to undertake a Basic Purse Seine Crew Course other
than trainees should be medically fit and willing to work in what at times can be a difficult
environment with long periods away from home.
However, as part of the curriculum trainees must also complete the STCW 95 Certificate in
Sea Safety course that covers the requirements of the 1995 STCW Convention Chapter IV,
Section A-IV/1 or in lieu of the STCW 95 Certificate in Sea Safety course, a sea safety
training program that generally meets those requirements.
If trainees haven‟t undertaken such training it is anticipated approved training organisations
delivering the Basic Purse Seine Crew Course will deliver, or facilitate the delivery of the sea
safety component immediately prior to the general purse seine component. It is expected
that the training organisation delivering the sea safety training will have the necessary
approval and resources required to deliver that component.
Any other requirements to undertake the course are at the discretion of the training
organisation, other organisation or country facilitating the training courses.
4
SEAMANSHIP – PURSE SEINE OPERATIONS
General
Purse seining is a method of fishing that targets pelagic fish that are swimming on or near
the surface, such as tuna and pilchards (sardines). It encircles a school of fish that has been
spotted from the lookouts on the boat, by specialist spotter aircraft or sophisticated
electronic equipment, particularly sonar. It is a very efficient method of fishing in that the
whole school of fish is usually caught.
The large fleets from countries such as the USA, Japan, Philippines, Spain, Taiwan, China
and Korea that roam the tropical and semi-tropical oceans of the Western and Central
Pacific ocean catching tuna for canning almost exclusively use the purse seine method. The
vessels are generally large in size, spend long periods of time at sea and some carry up to
2000 tonnes of fish when loaded.
A set can be made on a school of fish swimming by themselves on the surface (called a free
set), though the risk of the fish escaping before the net is closed is high and requires luck
and skill. Many purse seiners prefer to set on schools that have aggregated under fish
Aggregating Devices (FADS), which have been positioned by the purse seiner or their
support vessels. The fish are attracted to bait fish which congregates under the FAD and are
preoccupied when the set is made.
5
Principles of purse seine gear
Common terms
So that you can take on your role as a crew member, you most first know the names of the
various parts of the purse seine gear and the other equipment used during the operation.
TERM
DESCRIPTION
Purse seine net
Is basically rectangular in shape and has a purse line running through
rings on the bottom of the net. This line is hauled in during the operation,
thereby closing off the net and capturing the fish in a „floating pond‟. The
nets can be from as small as 100 m in length up to 2000 m in length and
300 m in depth on the large tuna purse seiners.
The wire or rope that the top of the purse seine net is attached to. It has
enough floats (corks) to ensure the head line floats on the sea surface.
The wire or rope that the bottom of the purse seine net is attached to. It
has weights of chain or lead to allow the bottom of the net to sink to its
maximum depth and go under the targeted fish when the net is „pursed‟
or closed off.
The last part of the net to go into the water and the first part aboard
during hauling. Is often made of lighter netting.
The first section of net in the water and remains in the water after
hauling is completed and the fish are ready to be brought aboard or
transferred to a towing cage. It is made of heavy netting to prevent the
captured fish breaking through.
A wire cable that passes through a series of rings attached to the foot
line. Is hauled in so as to close the bottom of the net.
Made of steel, are circular or oval in shape and are either closed or have
spring-loaded openings to allow them to be disconnected from the purse
line. The purse line passes through them and they assist in the closing off
process.
Are made of rope or chain and attach the rings to the foot line of the net.
Can either be V-shaped with the ring in the centre or a single line.
Either wire or rope, it is attached to the wing end of the net and is used
to haul the net back to the boat ready for the main hauling operation.
Sheathed rotating drum covered in hard-wearing rubber that allows the
net to be gripped by the block and hauled aboard as it rotates.
A solid T-shaped assembly with blocks hanging from it that allows the
purse and overshoot lines to run from the winches to the net in the
water.
Round with a rotating V-shaped sheath and suspended from a fixed point.
Used to change direction of wire or rope.
A pole that has a swivel section at one end that allows it to be moved.
Generally has a block at the other end to allow wire or rope to pass
through. Used to lift equipment, in the brailing operation and during
unloading ashore.
Tender boat with powerful engine used to pull the net into the water at
the start of a set and as a general work boat during the purse seine
operation, particularly on the American style operation where it is used to
pull the main vessel clear of the net.
Cork line
Chain line
Wing
Bag or sack
Purse line
Rings
Bridles
Overshoot line
Power block
Purse davit
Block
Boom
Net skiff
6
Typical purse seine net
Other equipment
Purse winches
Used to haul the wire or rope that closes off the bottom of the purse seine net.
Are generally driven hydraulically.
Modern purse winches generally have two or more drums. This allows the purse line to be
pulled in from both ends at the same time and so speed up the pursing or closing off
procedure. The overshoot line winch is often part of the same winch and each winch is
operated separately by a series of clutches and brakes. Main purse winches are
sophisticated pieces of machinery and need to be operated by an experienced operator.
Purse winches are very powerful and can be dangerous if care isn‟t taken around them.
Stand well clear when the winch is operating and don‟t ever put your hands on wire as it is
being wound onto the drum.
7
Power block
The power block has been the most important development for purse seine operations,
allowing large nets to be easily hauled in.
Power blocks:
are a sheathed rotating drum covered in hard wearing rubber
allows the net to be gripped by the block and hauled aboard as it rotates
are generally driven hydraulically
On American style purse seiners operating in the Western and Central Pacific tuna fishery
the power block is suspended from the main boom and positioned over the area of the deck
near the stern where the net is stacked aboard the purse seiner.
Overshoot and lifting winches
Overshoot winches are often part of the main purse seine winch (as described in the purse
winch section), but can be a separate winch. Overshoot winches haul in the overshoot line
and bring the wing end of the net to the boat ready to go through the power block.
There are a variety of other winches on a purse seiner that are used during brailing
operations, unloading fish and for lifting the net skiff aboard.
Capstan
Sometimes a capstan is used to haul in the overshoot line or for lifting operations. A
capstan is a rounded steel drum that is often attached to the shaft of another winch.
8
Operating a capstan
1.
2.
3.
4.
Take three or four turns around the capstan with the line.
The line should run in the same direction as the capstan is turning.
Ensure the layers of line are not over the top of each other.
Pull continuously on the end coming off the capstan.
If the rope is under strain and difficult to pull off the capstan, use another procedure. It is
dangerous to lift or pull a weight that continually makes the line slip and puts it under
severe tension.
Booms and blocks
Most purse seine operations use a combination of booms and blocks to assist in the setting
and hauling procedure, to take fish from the net and to off-load in port. The exact
configuration is dependent on the type of purse seiner and the master or owner‟s
preference.
The positioning of blocks will determine the exact operational method of the vessel:
In general the purse lines run from the winch to blocks positioned on the purse davit on
one side of the vessel, then through the purse rings
The overshoot line block may also hang from the same davit
9
Net stacking area
The deck and equipment layouts of most purse seiners operating in the Western and Central
Pacific tuna fishery are similar, the only differences being minor to accommodate some
structural differences between vessels.
All have an area on the aft section of the vessel which houses the net when it is on board.
In most cases the cork line is stacked on the starboard side of the vessel, the chain line,
ring bridles and rings on the port side of the vessel and the body of the net is flaked
between the two.
Shackles, hammer locks, sister clips
Shackles
Used to join various components of the purse seine gear together
Made of ordinary steel or stainless steel and are U-shaped or a slightly U-shape
Fastened by a pin at the top of the U
Should be tightened with a spanner and if not regularly undone, further secured with a
piece of wire around the pin head and the shackle body (called mousing or seizing)
Tested shackles have a tested breaking strain engraved on the body - make sure you
don‟t use a shackle for a job that exceeds the tested breaking strain
Hammer locks
Used for similar applications as shackles, but are not as easy to undo.
A central pin with a spring joins the two identical parts.
When putting a hammer lock together for the first time, make sure an experienced
person checks your work – a hammer lock that comes undone under load is very
dangerous.
10
Sister clips
Widely used on purse seiners
Are a D or oval-shaped clip, made of ordinary or stainless steel and have a slit cut into
the body on one side
Two sister clips are joined via the slits and provide a secure method of joining two lines
but can be clipped and unclipped very quickly.
General operating principle
The general operating principle of the purse seine is very simple.
A rectangular-shaped net has floats attached to heavy rope on the top (cork line) and
weights (generally chain) on the chain line
Rings are attached to the foot line by bridles (generally chain)
A purse line of either wire or rope is threaded through these rings and the net is set
around a patch of fish on or near the surface by the purse seine vessel
The vessel encircles the school as the net is going over the stern and returns to the start
point
Once back at the start point, the purse seine line is hauled aboard, thereby closing off
the bottom of the net and capturing the fish.
The main body of net is then hauled aboard (through a power block) until the bag or
sack section is all that is left in the water.
11
The excess netting in the bag or sack section is then hauled aboard over the gunwale,
which crowds the school of fish up and allows the operation of transferring the fish
aboard and into storage tanks to be easily undertaken.
Transferring of the fish from the sack to the fish wells aboard the purse seiner is
undertaken with a brailer (scoop), which is a steel ring with a netting bag attached and
is dragged through the fish, with the aid of booms and winches, taking up to 5 tonnes
of fish with each lift.
Setting and hauling procedures
Vessel layout and number of crew can vary but the general principles of setting and hauling
are very similar. Below you will find a general overview of setting and hauling and a crew
member‟s role, but remember to familiarise yourself with the operation you are working in.
Preparing the gear to shoot
The net will have been correctly set up when it was first put on board at the start of a new
season and thereafter as it was hauled in each time it is used. It should go out freely when
setting. In general the net is set up or stacked in the following order:
1.
The cork line and floats are laid fore and aft in the net stacking area on the stern of
the purse seiner, generally on the starboard side of the vessel.
2.
The chain line, ring bridles and purse rings are laid fore and aft in the net stacking
generally on the port side of the vessel.
3.
The main part of the netting in between the head line and foot line is laid fore and aft
in the centre area of the net bin.
4.
The purse rings are usually threaded with a rope as they are stacked to prevent
crossing them prior to the purse cable being threaded at the completion of stacking.
5.
The chain line and rings are set on the side that the vessel will be turning when setting
the net, which is generally in an anti-clockwise circle in the Pacific tuna fisheries.
6.
The purse line is threaded through the rings in order and connected to the bag end of
the net, ready to connect to the purse winch when the set or circle is complete and
pursing begins.
The importance in laying out the purse seine net for setting is that the cork line and chain
line are well separated on opposite sides of the vessel, ensuring they do not become
tangled.
12
Be very careful when working in the net stacking area. The net is dropping from above,
from quite a height and the steel purse rings, chain bridles and chain line can cause damage
if they hit a crew member.
It is normal for a crew member (usually the person stacking the chain line and/or rings) to
yell „RING!‟ as each ring is approaching.
Make sure all other attachment points such as shackles, purse line, the overshoot line,
retrieval lines and floats, sister clips, etc., are securely fastened in accordance with the
procedure used for the operation.
Setting Procedure
Step 1 The hauling line and purse line are connected to the bag end of the net and to the
net skiff.
Step 2 On the skipper‟s command, the net skiff is set free from its stowed position on the
ramp on the stern of the vessel by releasing a quick release clip.
Step 3 The weight of the net skiff begins to drag the net into the water.
Step 4 The vessel steams ahead at close to full speed, with the net tumbling overboard
and the purse line being continually released from the main drum of the purse
winch, encircling the school of fish.
Step 5 On returning to the first part of the net to go into the water (the bag or sack), the
vessel stops alongside the skiff.
Hauling procedure
Step 1 The hauling line connected to the end of the net is taken from a crew member in
the skiff and hauled aboard.
Step 2 A messenger line from the second purse drum is connected to the purse line at the
bag end by sister clips and both that drum and the main purse drum that has
contained the purse line during setting are engaged and the pursing begins.
Step 3 At the same time, the overshoot line is being winched aboard until the wing end of
the net can be reached. A line is fed over the power block and clipped to the end of
the net. The overshoot line is then disconnected.
Step 4 Pursing is complete when the bunched rings have reached the side of the vessel. A
crew member remains near the rings ready to release them one by one as the net
is hauled aboard.
Step 5 The net is now pulled up to and over the power block by the attached line and when
the net is grabbed by the power block the hauling begins.
Step 6 Most crew will be in the net stacking area helping to restack the net. The number of
crew needed depends on the size of the net. At least one person will be working the
cork line, one the chain line and rings (sometimes two people are needed on larger
nets), with the remainder stacking the body of netting in between.
Step 7 When the correct amount of net has been hauled in for the brailing operation,
preparations are made to load the fish aboard.
13
Brailing
Most purse seiners in the Western and Central Pacific tuna fishery now use the “Spanish
style” brailing system. The net skiff is not used at all during the entire sacking up and
brailing process as was common on previous American style purse seiners.
No net skiff is necessary as the cork line and sack are supported by a reinforced unloading
boom. A much heavier brailer ring is drawn through the sack in a bow to stern motion by a
deck mounted winch. The automation allows brailer capacity to increase to approximately 45 tonnes.
Once the brailer full of fish is aboard it is lowered over the hopper, released and distributed
to the fish wells on the wet deck below, via chutes.
Safety
Be very careful when working in the net stacking area. The net and its parts, particularly
the steel rings are heavy and can cause severe damage if they fall on you from the
power block.
Always wear a hard hat (helmet) when working in the net bin.
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DANGER
Keep clear of the net as it is going overboard - remember it is impossible for the vessel
to stop halfway through a set to pick you up.
Take care not to place your hands anywhere near the winches when they are operating
or the purse wire when it is moving.
If you are working in the skiff or speedboats wear a life jacket – they can capsize if
incorrectly operated.
Use proper manual lifting techniques at all times.
Ask for help if you need it.
Keep the deck washed down to prevent slipping and make sure all loose gear is correctly
stowed to minimise hazards.
Wear protective gloves, clothing and footwear. Rubber boots with steel capped toes are
recommended. Never work in bare feet or open shoes.
Searching for schools of fish
The efficiency of the modern purse seiner is exemplified by the array of technology it has at
its disposal to find schools of tuna. It uses:
helicopters and aeroplanes to widen the search area
modern electronic equipment such as sonar to detect fish under the surface
S-Band radars to locate birds that feed on bait fish with tuna
specialised equipment to read water temperatures and provide weather, current and
other useful information.
15
This technology is complemented with visual searching by the crew using high powered
binoculars from high vantage points such as the crow‟s nest. Crew look for:
signs of fish schools rippling on the surface
birds feeding on bait fish
floating logs and other debris that has attracted bait fish, which in turn attracts tuna to
feed on the baitfish.
Fish Aggregating Devices or FADS, which are set by the fishing operators and may be free
floating or anchored, are a particularly good way to attract tuna. There are 1,000s of FADS
deployed on the Western and Central Pacific tuna grounds and have proven very successful.
16
Gear Maintenance
A good crew member continually checks all the fishing gear for defects and repairs any
faults that are found. Remember fish can easily escape if gear is not maintained in good
condition. More importantly, serious accidents and even fatalities can occur as a result of
badly maintained equipment.
Rope and wire
Rope lines and wire should be checked regularly for chaffing and parted strands - where
excessive wear is found, the rope is to be condemned and replaced
Unwanted knots should be removed as they prevent the rope from running through the
blocks smoothly and can reduce strength
Kinks should be straightened out and if in poor condition, cut and respliced
Connecting clips, toggles, etc., should to be checked for wear, smooth operation and
replaced if necessary
If a line breaks during the hauling process it may be rejoined with a joining splice as
long as the overall condition of the rope is okay. Check with an experienced crew
member. You should be able to splice ropes and tie knots in the correct manner. Check
the splices that are used on your vessel and practice them regularly.
Don‟t be afraid to ask for help if you are not sure.
Nets
Nets are the most critical gear in a purse seine operation, particularly the bag section where
the fish are crowded and push against the net. Nets should be continually checked for wear
and tear and repaired as soon as possible
All the hard work in finding the fish is lost if they escape before you get them on board.
Areas to check and either repair or replace include:
Main body of netting for holes and
tears, particularly the bag
Check for holes as the net comes on board and
have some coloured twine or rope to mark any
holes. Pull them to the front of the net stack so
they can be reached if they need to be repaired
later
Cork line and chain line
Reattach netting that has come adrift.
Floats and ground rope gear for wear
and tear
Replace if in doubt.
Connecting clips, toggles, shackles, etc.
Replace if in doubt.
Purse line
Resplice damaged areas.
Other equipment
Regularly check blocks and connecting shackles for wear and tear and repair or replace.
Check winches and other mechanical equipment frequently. It may be the engineer‟s job
but you could be the person hurt by an accident.
Check the purse rings to see whether they are badly worn where the purse line rubs
against them. Replace if necessary and put the damaged one aside for the engineer to
re-weld.
17
Before a fishing season starts, a general maintenance period takes place but regular
checks and repairs whilst fishing can reduce the length of the maintenance period.
Picking up on a problem early can save time and most importantly, stop fish escaping or
prevent a serious accident.
Remember
During setting and hauling operations, you should be continually keeping an eye out for
anything which looks abnormal. If you cannot fix it or are not sure if you should, bring it to
attention of an experienced crew member.
18
SEAMANSHIP – GENERAL OPERATIONS
Vessel layout
As a crew member on a purse seiner you must have a basic understanding of the general
layout of a vessel and some common terms referring to parts of the vessel.
Familiarise yourself with some general terms and study the basic vessel profile and the
nautical terminology outline below. In particular you must learn the four major sections of a
vessel – port (left side when looking forward), starboard (right side when looking forward),
bow (front section of the vessel) and stern (the back section of the vessel).
Some general terms
Athwartships
Beam
Bilge
Bow
Bulkhead
Bulwark
Chain locker
Combing
Fore and aft line
Forecastle (focsle)
Freeing ports
Gunwale
Helm
Keel
Lazarette
Midships
Port side
Quarter
Rudder
Samson post
Scupper
Starboard side
Stem
Stern
Transom
At right angles to the fore and aft line.
That part of the ship‟s side which lies between the bow and
quarter. (Also denotes the breadth of the ship).
Curved section between the bottom and side of a ship.
That part of the ship‟s side which is near the stem or front.
Vertical wall or division between compartments.
An extension of the ship‟s sides above the deck to prevent
persons/equipment going overboard.
A compartment in the forward lower portion of a ship, in
which the anchor chain is stored.
A raised edge around any opening that helps prevent water
entering.
The line between the stem and stern, that is, in line with the
keel.
The forward upper compartment of a ship, usually used for
stores, accommodation, etc.
Openings in the bulwark to allow any water on the deck to
flow out quickly.
The protective board fitted to the sheer plank, the term is
sometimes applied to the upper deck of a boat.
Steering wheel of the vessel.
Is the backbone of the vessel running from forward to aft at
the lowest part of the hull at the centreline of the vessel.
The space above the afterpeak between decks.
Lying midway between stern and stern in a fore and aft line.
The left hand side of a ship looking forward.
That part of the ship‟s side which is near the stern.
A device found aft of the propeller that deflects the water in
the required direction to steer the vessel.
A heavy vertical post used for tying mooring lines.
Drain from weather decks to carry off sea and rain water.
The right hand side of a ship looking forward.
The extreme front or foremost part of a ship.
The extreme rear or aftermost part of the ship.
The aftermost transverse frame.
19
Basic vessel profile
Basic nautical terminology
Prepare the vessel for sea
Preparing a vessel for sea can cover a wide range of tasks but the tasks you will most likely
be involved with as a general crew member, include:
securing the vessel so that it is watertight
lashing gear that can move
making preparations for rough weather
Securing for sea
When a vessel puts to sea it has to be watertight or the life of everyone aboard is at risk.
There are numerous watertight and weather tight closures both above and below decks that
should be closed and secured, even in calm conditions, unless there is a specific reason for
doing otherwise.
20
General closures include:
watertight bulkheads and doors
hatches and hatch covers
exterior doors
manholes
lazarettes
ventilators
skylights
portholes
Remember - The crew member who OPENS a watertight closure is responsible for ensuring
it is closed at the earliest possible opportunity.
Mooring lines and loose gear should be stowed below decks. If not then they should be
securely lashed.
Booms, cranes, drums, deck cargo should be well lashed (with good knots and hitches)
and NOT tied against freeing ports, watertight doors or on top of required deck
openings such as lazarettes.
Crane hooks should be secured by attaching to a fix (and strong) point on the vessel
and tightened by taking the weight with the relevant winch.
21
Lashing gear
Lashing gear involves tying down any gear that is likely to move at sea. Moving gear is
dangerous because it can injure crew, damage the vessel and can also affect the stability of
the boat by shifting the vessel‟s centre of gravity.
All gear must be securely stowed to prevent
movement
The rope used must be strong enough to hold
the weight of the gear to be secured
The knots used are correct and tightened so
that they won‟t slip but can be undone quickly
Any gear stored on deck should be placed on
timber beams, especially on steel decks but
preferably on all decks, to allow for drainage
Gear is placed and secured so that it doesn‟t
affect the boat‟s stability, i.e. stacked as low as
possible and as near as practicable to the
vessel‟s centre line
Protect lashings from sharp nips, i.e. corners.
Remember - a lashing is no stronger than its weakest part. Continually check lashings to
ensure they haven‟t come loose. Retighten if necessary.
Preparing for rough weather
If rough weather is encountered or suspected, the following are some of the points to
consider:
Batten (fasten) down all hatches securely.
Close all portholes with dead lights (if fitted).
Use storm boards over large window areas where practical and cover openings without
closures.
Close all watertight doors.
Clear decks of gear - stow and secure below.
Lower any booms and resecure.
Check freeing ports (scuppers) are clear and working.
Reduce slack (not full) tanks to a minimum, by either totally emptying or topped up.
Rig safety lines on deck.
Close covers on ventilator pipes to fuel tanks and fresh water tanks.
Berthing operations
As a crew member you may be involved in tying and untying a vessel to and from a wharf,
also known as berthing and unberthing. The skill of the Master in positioning the boat
alongside the wharf can be completely undermined by incompetent crew work. In particular,
the skipper will rely on the skill and speed of the crew in windy conditions or when the
current is strong.
22
General terms
In order to assist in berthing you will first need to understand some common terms.
A berthing line is a line with a loop in
one end that is attached to a bollard or
cleat on a wharf and secured to the
vessel. There are different names
depending on where the line is in
relation to the vessel.
Bollards or cleats are attachment points on a wharf and on the vessel that the mooring lines
are attached to. There are a variety of attachments on a vessel. For example:
cleats
stag horn bollards
sampson posts
23
Fairleads are a fitting on the side of
the vessel near the securing points
through which the mooring line
passes. They are used to lessen the
wear and control the direction of the
line.
Fenders are like large cushions that are
attached by a rope to the vessel and
are positioned to help protect the hull
from damage caused by rubbing
against the wharf. Sometimes old tyres
are used as fenders, although they
leave black marks on the hull where
they are positioned.
A heaving line is a light line with a weighted end that is attached to the end of the mooring
line to go ashore. It is used when the mooring line may be too heavy to throw and is thrown
ashore first.
Preparing to berth
There are a number of things you will need to find out before berthing, including:
which side of the boat will be alongside the wharf;
positioning of fenders;
the number and position of ropes to be made ready;
the sequence of mooring ropes to be made fast.
24
The mooring lines need to be in place ready to get ashore quickly and the fenders correctly
positioned. This will include:
Lines flaked on the deck so that they will run out freely
Passing loops that are going ashore through the relevant fairlead (if applicable)
Taking a couple of loose turns of the opposite end of the line around the vessel
attachment point to prevent it going over the side
If necessary, attaching heaving lines
Placing fenders where they will effectively protect the vessel
Berthing
The order that lines will be attached will depend on
the method of berthing. There are a number of
alternatives depending on weather conditions, vessel
type and skipper preference. You will need to be
aware of the method used.
As a general guide you will need to follow this
procedure:
1. Take three or four loops in each hand of the line
to go ashore.
2. Make sure you aren‟t standing in any loops of
line on the deck.
3. As the vessel approaches the wharf throw the
loops ashore.
4. When the end ashore is attached to a bollard or
cleat, quickly pull all slack line aboard.
5. Take two turns around the attachment point on
the vessel.
6. Adjust the line in or out according to
requirements. Watch the skipper for instructions.
7. When the vessel is in position, secure lines
correctly according to the method used on your
vessel.
8. Coil unused line tidily.
9. Check fenders are correctly positioned.
Securing the line to a bollard, post or cleat
It is very important that the line is
correctly secured to all attachment
points. The tension applied by the
vessel pulling on the line can
make it difficult or impossible to
untie. This can be particularly
dangerous if you need to unberth
quickly and costly if lines need to
be cut.
Some preferred attachment
methods are shown in the
diagrams.
25
While berthed
While the vessel is tied to the wharf it will be necessary to watch carefully to ensure the
vessel is moored securely at all times.
Pay attention to the rise and fall of the tide adjust the lines as necessary
Continually check the position of the fenders
Check that mooring lines aren‟t cutting or rubbing against objects
Keep an eye on the weather a change in wind direction might mean the Master will
need to move the boat to a more secure position.
Remember - the rise and fall of the tide means mooring lines may need to be continually
adjusted. The vessel‟s bow and stern lines should be secured on the wharf as far away fore
and aft from the vessel as possible, so that they still have sufficient lead when the vessel
drops down on the tide.
Anchoring operations
Types of anchors
26
Parts of an anchor
Some other terms
Gypsy - the specially shaped drum on an anchor winch
that takes the links of anchor chain.
Hawse pipe - the tube through which the anchor cable
runs from the anchor winch to the anchor.
Spurling pipe - the tube through which the anchor cable
runs from the anchor winch to the chain storage area.
Scope - the ratio or amount of anchor cable to the depth
of water (e.g. 40 metres of anchor cable let out in 10
metres of water is a scope of 4:1). The amount of scope
will depend on the depth of water, type of anchor cable
(chain, chain and rope), weather conditions, etc.
Each vessel will have its own procedures for dropping and retrieving the anchor. As a guide,
the following is a typical procedure for anchoring a vessel.
Preparing to anchor
The winch operator will have the anchor ready for letting go once the Master gives the
order. This may include:
disengaging the clutch on the anchor winch
turning on power to the anchor winch
removing any securing stopper to the anchor (e.g. a turnbuckle, rope lashing);
anchor hanging free of the hawse pipe or the anchor bow roller but clear of the water;
brake on
Make sure everyone is clear of the anchor and cable (or rope) and if the cable is stored in a
locker make sure it is clear also.
27
Anchoring
The vessel heads into the wind then the skipper puts the vessel astern. When in the correct
position to anchor:
1.
2.
3.
4.
5.
When the order is given to let go, the winch operator will let the anchor run out (after
unscrewing the brake), generally under power until it hits the bottom.
The winch operator will continue to release the anchor cable as the ship moves astern,
maintaining slight tension to ensure the cable is stretched out and not piled in a heap
on the bottom.
When the Master indicates the required length of cable (called the scope) is out, the
winch operator will stop releasing the cable by putting on the winch break
Crew now wait until the boat is „brought up‟, which means it is comfortably riding and
holding on the anchor
If the anchor is dragging it will be seen to pull taut and repeatedly go slack - vibrations
can also be felt through the anchor cable or the vessel may sit side-on to the wind.
Stoppers or extra securing devices that may be used in place
Watching while on anchor
While at anchor a careful lookout must be kept. This may mean crew members keeping
rostered anchor watches. Even if that isn‟t the case on your vessel, you should be keeping a
lookout at all times. The safety of the vessel relies on continually checking:
the vessel‟s position by:
 taking a bearing of fixed objects (preferably two in line-called a transit bearing)
 position relative to other vessels
 depth of water on the echo sounder
 observing the radar
28
the amount of „swinging room‟ between other vessels and/or reefs, buoys, etc – a
vessel will move around from side to side on its anchor so make sure there is enough
room to do that
the anchor cable for wear - this might mean adjusting the cable (or rope) slightly so
that the same part isn‟t rubbing continuously in the hawse pipe or anchor bow roller;
any change in weather conditions
the anchor light is on at all times
Remember - if you have any doubts concerning the vessel‟s safety while at anchor, make
sure you let the Master or Officer of the Watch know immediately. This maybe because the
vessel is dragging anchor, the swinging room is insufficient or the weather conditions have
changed.
Lifting the anchor
Again each vessel will have its own procedures for dropping and retrieving the anchor. As a
guide, the following is a typical procedure for retrieving the anchor.
The winch operator will turn the power on to the anchor winch and put the clutch in so
that the anchor can be lifted
The Master will steam slowly up in the direction that the anchor is laying – crew must
continually indicate the direction of the anchor to the skipper by pointing
As the anchor comes from the water, the winch operator will check that the anchor
flukes are the right way round to either sit in the hawse pipe or come aboard. If not, a
gaff or other means to turn the anchor around will be employed
Once in its stowed position, the anchor is secured by tightening the anchor winch brake.
29
ASSISTING WITH A NAVIGATIONAL WATCH
General duties
As a crew member on a purse seiner you may be required to stand a watch at some stage,
even if it is only for a short period of time during daylight hours. You will generally be with
an officer or more senior crewmember but you, along with your watchkeeping colleagues,
are responsible for the safety of the vessel and all the crew on board. Keeping a proper
lookout is absolutely critical.
Keeping a lookout
Keeping a proper lookout means using all available
means to make sure any danger such as other vessels,
land, reefs, debris and change in weather conditions is
noticed and proper action is taken to avoid potential
dangers. These will include:
staying alert by sight and sound–watch and listen;
observing wheelhouse navigational equipment such
as the compass, auto pilot, radar, GPS, plotter and
the echo sounder;
if there is a watch alarm making sure it is turned on;
constantly ensuring the compass course the skipper
has set is being followed;
listening to the marine radio equipment;
keeping an eye on possible weather changes;
following any particular instructions the skipper may
have left;
calling the Officer of the Watch (OOW) or the skipper
if you are in any doubt
Note: As a new crew you may not be tasked to perform some of the duties relating to
electronic equipment but you will be taught the procedures during the course of your
watchkeeping duties.
Remember
If you are in any doubt as to any change in circumstances you MUST immediately call
the OOW or the Master. They would rather be called for a situation you are unsure of,
than be alerted to a danger when it is too late.
NEVER leave the wheelhouse unattended when you are on watch (other than to wake
the next watch) – if you do need to leave for any reason inform the OOW.
Don‟t alter the settings of any of the navigational equipment unless specifically given
instructions by the OOW or the Master to do so.
Change of watch
The change of watch is a particularly important time and you need to follow these
procedures.
You will be informed by the OOW to summon the next watchkeeper
If a new watchkeeper is asleep, wake them and then return IMMEDIATELY to the
wheelhouse to wait their arrival.
30
Advise the new watchkeeper of the vessel‟s course, position, any possible dangers such
as nearby vessels or reefs, weather conditions and any specific instructions from the
Master.
Give the new watchkeeper time to settle in, particularly at night (to adjust their eyes),
before leaving the wheelhouse.
(COLREGS) - Rules of the road
Just as there are rules that determine right of way, correct signals and general
responsibilities when driving cars so there are rules that govern how a vessel must operate
at sea to avoid risk of collision and other potential dangers. The Master and senior crew will
know these rules comprehensively but as a competent crewmember you should at least be
familiar with the basics so that you can alert the OOW or the Master to any potential
problem.
General terms
You will need to become familiar with the nautical terms for ship directions such as port,
starboard, abeam and so on.
Basic lights
The Rules of the Road provide a system of lights on vessels so that vessels can not only be
identified, but other information such as activity, direction and distress can be easily
determined.
The lighting system itself is quite straight forward. However, the large numbers of
combinations of lights make it almost impossible to remember all of the possible signals that
can be displayed.
31
You should learn the basics and practice identifying them at sea. The coloured lights that all
boats (at least over 7 metres in length) must display at night are:
GREEN–starboard side light
RED–port side light
WHITE–masthead light and stern light
Being able to identify these lights will let you decide the direction that another vessel is
travelling when you are on watch.
Basic steering rules
There is a range of rules that decide such issues as a safe speed in certain circumstances
and which boat has right of way in various situations. Again you don‟t need to be familiar
with all these rules but you should know some basics.
When two boats are crossing each other the vessel on the starboard side of the other
boat has right of way.
When two boats are coming head on to each other they should both alter course to
starboard.
Power driven boats give way to yachts.
A boat overtaking another boat must keep clear until it is WELL PAST that boat.
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Basic sound signals
Sound signals are used by vessels to indicate their intention to manoeuvre, or to signal
when in fog or out of sight of one another. Below are some of the common signals you may
encounter.
SIGNAL
MEANS
One short blast (approx. 1 second)
Two short blasts
Three short blasts
I am altering my course to starboard
I am altering my course to port
I am reversing ( Reverse propulsion)
In foggy weather or at times of restricted visibility, vessels may use other sound signals to
indicate their presence or let you know they are having trouble manoeuvring.
Some of the more common restricted visibility signals:
SIGNAL
MEANS
One long blast every 2 minutes
One long two short blasts every 2
minutes
Boat moving through the water
Boat that may have trouble manoeuvring. Refer
to the Collision Regulations for a more detailed
description of what these are.
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Distress signals
These signals are used to indicate that a boat is in distress. It is important that you know
and recognise the common distress signals and are alert to unfamiliar signals that may
indicate a boat in distress.
The common distress signals are:
rockets or shells, throwing red stars fired on at a time at short intervals
a signal made by radio or by any other signaling method (e.g. a torch) consisting of the
group in the Morse Code SOS (3 short 3 long 3 short)
a signal sent by radio consisting of the spoken work–MAYDAY
a square flag having above or below it a ball, or anything resembling a ball
a rocket parachute flare, or a hand-held flare showing a red light
a smoke signal giving off orange-coloured smoke
slowly and repeatedly raising and lowering arms out-stretched to each side
a rectangle of the internationally accepted orange coloured material with a black letter V
or a black square and circle
dye marker
the international code signal of distress indicated by NC
continuous sounding of sound signalling equipment–SOS
emergency position indicating radio beacon (EPIRB)
Wheelhouse equipment
Purse seiners are equipped with a wide array of navigational equipment, from the basic
magnetic compass through to the more sophisticated electronic equipment available today.
This equipment is used to:
assist in safely navigating the boat and warn of potential dangers;
locate and catch fish.
As a watchkeeper you will be able to observe this equipment while on watch and use it to
decide if there are any situations that need to be avoided. The OOW or the Master will point
out any basic operational skills for the equipment on your vessel that you will need to
undertake a watch.
Remember- unless you are given specific instructions by the OOW or the Master, DO NOT
alter any settings on wheelhouse equipment.
34
The compass
The compass shows the direction in which the vessel is being steered or heading. The basic
principle of a working compass is to point to north, hence the direction the vessel is heading
at any time is its angle with the north pole. There are two main types of marine compasses:
magnetic compass
gyro compass
Magnetic compass
The magnetic compass doesn‟t require any power to make it work and is simple and
reliable. It is found on smaller boats and is generally a requirement for survey (except on
very small boats).
It is affected by errors caused by the earth‟s magnetism (called variation) and the boat‟s
magnetism (called deviation). The Master will have calculated and allowed for these errors
when setting a course to steer by.
Remember- don‟t put iron, steel or magnetic objects (such as electrical equipment like a
portable stereo) near a magnetic compass.
Gyro compass
The gyro compass has freely
rotating spheres, which point
towards the North Pole. It
requires a constant source of
electrical energy to operate.
It is much more accurate
than a magnetic compass
and isn‟t affected by
magnetism.
Vessels with a gyro compass
will also have a magnetic
compass as a backup in case
of a loss of power to operate
the gyro compass.
You will need to become familiar with reading a compass so that you:
are able to make sure the boat is following the course set by the Master
can indicate the location of something in relation to your vessel.
35
The compass is made up of a circle showing 360 degrees. To check the vessel‟s course, you
simply look at the reading that is in line with the small pointer on the compass (called a
lubber line), which is in line with the vessel‟s fore and aft line. If the course the skipper has
set is 45°, the 45 degree mark on the compass card should line up with the pointer.
To indicate the location of something in relation to your
vessel you generally refer to it RELATIVE to your bow (or
the direction you are heading). So if your course is 50° on
the compass and the object you need to work out the
direction of is in line with the 90° mark on your compass,
that object is 40° to starboard.
Learning relative bearings can be confusing at first so ask
the Master or an experienced crew member to show you
and then practice, practice, practice.
Radar
Radar shows a „map‟ of the situation around your vessel and is used for the detection of
land, reefs, vessels, buildings, navigational buoys, etc. The radar enables the user to get a
range (distance) and bearing (direction) of objects and is also used for fixing the vessel‟s
position and avoiding collisions.
During the course of your duties you MAY be taught how to read and report on Radar
information. The majority of radars in use on fishing vessels are relative motion radars. This
means your vessel remains in the centre of the screen and so the movement of other boats
is not necessarily as it appears on the radar screen.
Radars are also affected by weather conditions, distance, and the type of material targets
are made of, so don‟t assume you are always picking up all objects or getting a true picture
of your surroundings. Small boats made of fibreglass, for example, can be very difficult to
pick up on radar, so make sure you are using all other means available – MOST
IMPORTANTLY YOUR EYES – when standing a watch.
Most modern radars can allow a guard zone to be set
up on the display (by the OOW or the Master). This
sounds an alarm whenever a contact enters a
predetermined section of the display and can give
early warning of the approach of another vessel.
Global positioning system (GPS) and plotter
The global positioning system (GPS) is a satellite navigation system using radio signals from
satellites orbiting above the earth to calculate the vessel‟s position.
The GPS display screen mounted in the wheelhouse will show the vessel‟s position in
latitude and longitude as calculated from the received satellite signals. The Master can plot
the latitude and longitude on a chart (sea map) and so know the vessel‟s position.
36
However modern purse
seiners are fitted with chart
plotters that display charts
electronically and are
interfaced with the GPS
system to continually show
the vessel‟s position on the
plotter‟s electronic chart.
While on watch you may need to pass on the vessel‟s position to the Master or take note of
a position (called a way point) that the vessel is heading towards. While you aren‟t expected
to have navigational skills at this stage, you may need to be able to read off latitude and
longitude from the GPS or plotter.
The vessel‟s position will always be described as a latitude and longitude, which is the
intersection of an east/west latitude line (across the chart or plotter) and a north/south
longitude line (up and down the chart or plotter).
The latitude will always be shown first and will have two main numbers of two digits (e.g.
05°36‟N). The longitude is the second number and in the Western and Central Pacific waters
will have a three digit number and a two digit number (e.g. 172°12‟E). The second number
in each could also have a decimal point to give a more accurate reading. The letter after the
numbers describes the position north or south (N or S) of the equator and east or west (E or
W) of a start point line running from the North to South Pole and passing through the town
of Greenwich near London, England.
In the Western and Central Pacific waters latitude can show S (South) or N (North),
depending if you are south or north of the equator. Longitude can show E (East) or W
(West) depending if you are east or west of the 180 0 longitude line.
For example a position on a vessel in waters around Tarawa, Kiribati will show latitude as N
(North) and longitude as E (East). Waters in the two groups of islands directly to the east in
Kiribati (Phoenix and Line Islands) may have N or S as a latitude (depending which side of
the equator the vessel is) but will always have a longitude showing W (West) .
All you need to do if asked to read out or write down a
position is to read the two numbers, with the latitude
coming first. In the example to the right you would
write down, or say:
Latitude
Longitude
03o15.60‟ N
175o10.15‟ E
37
03o15.60‟ N
175o10.15‟ E
Most GPS and plotters have a man overboard button which when pressed will automatically
keep the vessel‟s position at that particular time. If you see somewhere fall overboard your
role will be to immediately shout “man overboard” and inform the OOW or the Master.
Remember
Radar tells you where other objects (boats, land, etc.) are relative to your vessel.
GPS tells you where you are on the earth‟s surface- it doesn‟t detect other vessels or
objects.
Automatic pilot
Automatic pilots are connected to the vessel‟s compass and steering system and
automatically steer a vessel along a course that has been set.
Correctly adjusted, it tends to steer a much straighter course than a helmsman can and
relieves a crew member from steering manually.
Precautions when on watch with auto pilot steering
Always maintain a proper lookout - it can be easy to forget to keep a good lookout when
the vessel is being steered for you.
Keep an eye on the course–auto pilots can stray off course or not work properly,
particularly in bad weather conditions.
Many auto pilots use magnetic sensing elements to operate. Don‟t put magnetic objects
(such as a portable stereo) near the auto pilot.
Echo sounder
The echo sounder is an electronic unit used to measure the depth of the water and the type
of bottom (i.e. sand, rock, etc). It is also used as a fish finder on fishing vessels.
Modern echo sounders have a video display. It will also give a digital readout of the depth
and have an audible alarm set at selected depths to let the watchkeeper know the vessel
has moved into shallower water.
Most video display echo sounders use different colours to represent various signal strengths
of returning echoes. This makes it possible to identify the composition of the seabed, fish
echoes, etc.
38
Reading an echo sounder on watch
The echo sounder can tell you a number of things such as:
The depth of water the vessel is in - if the bottom rises quickly call the OOW or the
Master.
The type of seabed the vessel is passing over - the stronger (or darker) the echo the
harder the seabed (e.g. dark red on a colour video display often shows hard rock
bottom).
Remember - never adjust the controls on the sounder unless instructed to by the OOW or
the Master.
Instruments and alarms
Most fishing vessels will have instruments and alarms fitted in the wheelhouse to provide
warning if a problem arises with engine room equipment, other parts of the vessel or as a
navigation warning. Listed below are some of the alarms that may be fitted in the vessel
wheelhouse:
smoke and fire detector alarm
bilge level alarm (engine room)
refrigeration alarm
engine control and monitoring equipment
navigational equipment alarms
off-course alarm
watchkeeping alarm
equipment failure alarms.
If an alarm activates, the OOW or the Master must be informed and the reason must be
fully investigated.
Make sure you are familiar with all the instruments and alarms on your vessel. When you
come on watch make sure you take note of the settings for all the instrument gauges in the
wheelhouse and if they alter during your watch, inform the OOW or the Master.
Remember - under no circumstances should an alarm be turned off without the permission
of the OOW or the Master or possibly the Chief Engineer.
39
ROPE AND WIRE WORK
General
One of the first skills you will need to develop to be a competent crew member is the ability
to work with rope (natural fibre, synthetic and wire). Maintenance of rope and the ability to
join, splice and knot is a basic requirement for all persons working on fishing boats.
This topic will cover general joining, splicing and knotting, as well as the care and
maintenance of ropes (and wire rope) commonly found on purse seiners.
Remember - it is essential you know the capabilities and limitations of the rope you are
using. Rope that snaps under stress can be very dangerous.
Types of rope
The term rope is used to describe both fibre rope and wire rope. The basic materials used
are:
Natural fibres
Hemp, sisal, manila, coir and cotton.
Natural fibre ropes are much less common these days.
Synthetic fibres
Nylon, terylene (polyester) or dacron, polypropylene, polythene (polyethylene) and
kevlar.
Manufactured from man-made materials.
Steel wires
The strands are made of steel wires.
Often they have a natural fibre core (heart) that the wire strands are twisted around.
Synthetic fibre rope verses natural fibre rope
ADVANTAGES
Greater strength, size for size.
Greater elasticity or stretch but not
of great value in lifting gear.
Better shock absorption.
Better abrasive resistance.
Greater flexibility, ease of handling.
Less water absorption.
DISADVANTAGES
Outer surface is smooth and
slippery which causes slippage.
An additional tuck with all strands
when splicing may be needed to
offset this.
May deteriorate rapidly when
exposed to UV (sunlight)
Will melt if exposed to heat,
including heat from friction
Rope Construction
The process of rope making consists of twisting fibres into yarns, yarns into strands, and
strands into ropes. To prevent the rope unlaying, the strands are laid up in the opposite
direction to the yarns. Rope can be constructed as:
40
Three-strand or four-strand rope
This is where the rope strands are laid in
one direction. It can be either threestrand rope (much more common) or
four-strand. The lay of rope refers to the
direction that the strands are twisted. It
is either right hand lay (the most
common) or left hand lay.
They can come in different levels of
stiffness:
soft lay–soft, easy to splice but kinks
easily;
medium lay–most common lay for use
on boats;
hard lay–difficult to work with.
Braided rope
Solid braided cords are constructed
from either 12 or 18 strands, braided
together, normally over a central core
Available in sizes 3–12 mm diameters
Flexible, coils easily and is kink free
More difficult to splice
Plaited rope
The plaiting of 4 left-hand and 4 righthand strands
Results in a tough, kink resistant rope
that provides increased flexibility wet or
dry
Used for towing and mooring lines
41
Measuring, handling and maintaining rope and wire
Measuring rope
Rope is measured by its
diameter in millimetres
Uncoiling a rope
Improper uncoiling can insert twists and
increase the risk of kinking.
A coil of fibre rope should be uncoiled by
pulling at the bottom end from the
inside.
A wire rope should be uncoiled from the
outer end, preferably on a turn table.
Coiling a rope
Always coil ropes in the
direction of the lay:
right-hand (RH) coil
clockwise;
left-hand (LH) coil anticlockwise.
To avoid problems in paying
out a rope, it should be
flaked down to prevent
tangles as it goes out.
42
A fancy way to finish rope is
with a Flemish coil. It should
only be used for tidiness (such
as coiling the unused end of a
secured mooring line) and
never, for instance, when
required to go out through a
block.
Caring for ropes
The life of rope can be reduced due to the following:
excessive stress (especially when slipping around bollards or cleats)
exposure to petrochemicals (diesel fuel, petrol, etc.) and chemicals (e.g. acid)
rubbing or cutting against sharp or rough objects
stowing when wet (particularly natural fibres)
stowing in a badly ventilated place
kinking
unnecessary exposure to UV light (sun light);
using the wrong size block for the rope‟s diameter
If a rope has been used in mud, sand or grit, it should be cleaned thoroughly before being
stored. To wash rope, hang it up in loose coils or flake it out on the deck and hose with
fresh water.
When inspecting rope for wear and tear look for:
reduction in diameter
flattening of the rope
burn marks on synthetic rope
kinks
frays
dry rot or mildew
corrosion (caused by lack of lubrication in wire rope)
broken fibres
broken wire
powdered fibres
broken central core
lengths that run through blocks (particularly those lying on sheaves when the under
load)
Knots, bends, hitches
Definitions
Knot & bends
Hitches
Standing part
Tail
Bight
43
The intertwining of the end of a rope
or the joining of two ropes.
The attachment of a rope to another
object (e.g. post, pole, ring, hook).
The part of rope taking the strain.
The part of the rope used to make
fast, or the unused part.
The loop between the standing part
and the tail.
Reef knot or square knot
Used for joining two lines of the same size, if not
to be put under excessive tension.
Fisherman’s knot
Used to join two pieces of line together, but
where it will not be able to be undone (used to
join two pieces of twine together in network).
Overhand knot
Prevents the end of rope unlaying or passing
through a block.
44
Figure of eight knot
Used as a stopper to prevent the line from
running through a block. Doesn‟t jam as readily
as an overhand knot.
Bowline
The most useful knot a crewmember will use.
Bowlines can be used to put a temporary eye in
a rope, secure a safety line or join two lines. It
is easy to undo.
Sheet bend
A sheet bend is used to join
ropes of similar size and can
take tension.
45
Double sheet bend
A double sheet bend is used to join ropes of different
sizes and is more secure than a single sheet bend.
Clove hitch
A clove hitch secures the end
of a line under tension. It can
be preformed and dropped
over a post, etc., and be used
where a small rope is secured
to a larger rope or a spar and
the end kept free. It should
never be used where high
load is involved–it will never
come undone.
Rolling hitch
A rolling hitch is similar to a clove hitch but with an extra
turn. It may be used to take a strain along a spar and to
secure a rope tail to a larger rope when the direction of
pull is along the rope/spar in one direction only.
A rolling hitch can be used with chain or wire rope to hold
the strain while a riding turn is cleared from a winch.
46
Round turn and 2 half hitches
Best way to attach objects such as fenders to the
vessel where they need to be secure but easily
undone
Fisherman’s bend
This is a common method of securing a line to
a bollard, spar or ring. Similar to the round
turn and 2 half hitches, except the hitches go
through the turn.
Splicing
Splicing fibre or wire rope is a skill that
can only be learned through practice. You
can be taught the basics of splicing at a
training course and by experienced crew
members.
Before splicing, seize the ends of unlaid
strands, and seize the rope at the point
you plan to unlay it. This prevents it
unlaying further and can be achieved by:
using tape; or
seizing (whipping) with light twine.
47
Eye splice in fibre rope
An eye splice is formed by
unlaying the rope, then
turning the end back to form
an eye and tucking the
separated strands into the
standing part.
If splicing around a thimble, tie the rope securely to
the thimble with light twine.
Short splice in fibre rope
This is used to join two ropes
when they are not required to
pass through a block. Unlay
the two ropes and clutch
them together, so that the
strands of one rope go
alternately between the
strands of the other.
Tuck each strand over one strand and under the next, take two or more tucks with each
strand, then turn the line and do the same with the other rope. Pull each strand up taught.
A minimum of three full tucks should be taken on each rope.
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Splicing wire rope
Splicing wire rope is more difficult to learn and you may not be required to have that skill on
your vessel. If you do need to develop competence in splicing wire rope you will need the
basics and then work with an experienced crew member to improve your skills.
The chief component parts of stranded wire rope
There are a number of different tools you will need to splice wire rope including:
A fid or spike – used for pushing through the strands that you want to thread another
strand under
Masking tape, whipping twine, wire cutters, heavy hammer, vice (optional)
Gloves to protect your hands
There are a number of different methods of eye wire splicing. A common method is
described below but you will need to check to see what method is used on your vessel.
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Step 1
Strand no. 1 is tucked under 3 strands
Step 2
Strand no. 2 enters at the same spot as strand no. 1 and is tucked under two
strands
Step 3
Strand no. 3 enters at the same spot as strands no. 1 & 2 and is tucked under one
strand
Step 4
Strand no. 4 enters at a spot one around from where strands no. 1, 2 & 3 entered
and comes out where those three strands entered
Step 5
Strand no. 5 enters one spot further around from where strand no. 4 entered and
comes out where strand no. 4 entered
Step 6
Strand no. 6 enters one spot further around from where strand no. 5 entered (and
where strand no. 1 comes out) and comes out where strand no. 5 entered
Once you have completed the first six strands one strand should be coming out between
every two strands. If two strands are coming out in the same spot you have made a
mistake and need to check and redo the first stage.
To complete the splice every strand now goes over one strand and under two strands.
Repeat this process again and then finish the splice by taking every second strand over one
strand and under two strands so that you get a neat taper effect at the end of the splice.
Wire rope grips
Wire rope grips (also known
as bulldog grips) are mainly
used for forming a
temporary eye in the wire or
joining two parts of wire
together. You must ensure
the wire grips are placed
correctly on the wire and
that you use the right
amount of grips according to
the size of the wire rope.
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NET WORK
Basic principles
There are a number of rules that you will need to learn when assembling and mending nets
and a range of tools you need to be familiar with. Once you understand these few simple
rules and know the tools you will need, you will find the skills needed to repair nets and
assist in their assembly are easily developed. Mending nets can be fun and you will have a
sense of satisfaction when you have transformed a damaged net back to its original
condition.
Tools
Knives
Small, sharp knives (sometimes serrated for cutting
braided twines) can be folded back into themselves for
safe storage. Remember knives are one of the net
mender‟s most important pieces of equipment, so
acquire one that keeps a sharp edge and does not rust.
Some net menders prefer to use small scissors or a
Stanley knife. Try all these types and see which suit
you.
Remember to attach a lanyard (a length of twine or
narrow diameter rope) to your knife so that you can
attach the other end to your belt to prevent it from
going overboard.
Needles
A needle holds the twine necessary to
work on nets. Needles were once
made of bone. Now they are nearly
always made of plastic. There are a
range of types and sizes that are
suited to the material being used and
your own personal preference.
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Supports and stands
Supports and stands are used to stretch and position the netting for ease of operation while
you work. Supports can be either hooks or rings suspended from above. A quick and easy
hook can be made from wire of the thickness used in coat hangers, shaped into an „S‟ with a
length of twine attached into one of the loops of the S. The other loop of the wire is then
passed though a number of meshes above the area to be mended and the twine attached to
an overhead point at a convenient height.
Other trestles and stands can also be designed. These are particularly useful when hanging
(attaching) netting to a foot line or head line.
Measuring devices
Marked rods for
measuring spaces
when hanging head
lines and foot lines.
Tape measure and ruler, for
generally determining
lengths.
Mesh gauge for
measuring the size of
the net, by measuring
the distance between
knots.
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Parts of netting
Nearly all modern-day netting material is machine made. Netting consists of meshes which
are four-sided holes with each side comprising equal lengths of twine. After the net is
knotted together, it is stretched to create the diamond shape of the individual meshes.
Before beginning the practical art of cutting and repairing or making nets, it is important to
know some of the terminology and understand the basic construction of netting.
Twine
Twine is the material that nets are made
from and is small line made of multiple
strands. It can be twisted or braided.
Most twines are now made of a synthetic
material such as:
polyamide
polyethylene
polypropylene
Some nets (such as gill nets) are made of
another synthetic called monofilament,
which is one piece.
Twines of different construction, strength
and colour are used to match the existing
materials.
You must familiarise yourself with the size
and types of twine used in nets in your
operation and use the same twine in the
part of the net you are repairing.
Mesh
Mesh is two loops of twine which are joined together with knots to form a diamond shape.
Netting material is made up of many meshes tied together.
Each side of the mesh is called a
bar, so every mesh consists of
four bars.
A point and a pickup are the apex
of two bars when cut.
The side cut (in the direction the
net is running) is the point and
the top cut is the pickup, but
they are often both called a
point.
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The pickup is able to have the
cut twine removed and so
create a loop on one side of
the mesh.
The point has to stay as a
knot. Attempting to clean the
knot will cause the mesh to
come apart.
A row is each line of knots,
made up of half meshes.
Direction of netting
It is important to determine the
direction the net was made before
mending it. When repairing net you
also need to work with the run of
net.
To check the direction of netting,
undo a knot in a mesh. If the
strands making up the knot come
apart it is a point (or side knot) and
is the vertical direction or the run
of net.
Measuring netting
There is a range of different mesh sizes depending on
the fishery the net is being used for. In fact, a lot of
nets will have different sections using different size
mesh netting.
Meshes are measured by stretching the mesh in the
direction of the run of net and then measuring from the
centre of one knot to the centre of the opposite knot.
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Knots used in nets
Overhand knot
Tied at the end of the twine to stop it slipping through
a knot and causing it to undo.
Single sheet bend
Used to tie a knot on a mesh or pickup. Be sure to go
up through the mesh when working to the right and
down through the mesh if working to the left. This
ensures that the twine comes out pointing in the
direction you are going.
Note
If you are left-handed do the opposite.
Pinch the pickup and the twine you are threading with
your thumb and forefinger while you make the loop of
the sheet bend.
Double sheet bend
Used to start and finish a repair job. The double sheet
bend is also used on monofilament to prevent the
knot slipping. Use the same pinching procedure as for
the single sheet bend
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Side knot left, side knot right
Used to pick up points in the
vertical row (or run of net).
Pinching with the forefinger
and thumb is also used to
prevent the twine slipping
whilst tying the side knot.
Quick side knot
This is an alternative side
knot, however it is not as
secure and is more likely
to slip under load.
Fisherman‟s knot
Strong non-slip knot for joining twines
together when using needles continuously.
Rolling hitch
Used to attach the net to the head line or foot line. Also
called the hanging knot.
There are a number of other knots net makers might use to
hang the net to the head line and foot line. Ensure you are
familiar with any special knots used on nets you are working
with.
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Preparing a net for repair
Now that you are familiar with the basic principles of how nets are made and the tools and
knots used in net work, you are ready to take the first step in repairing a hole. You will
begin with mending a small hole.
Cutting out
Before you can start sewing new twine back into a hole in the net, the hole must first be cut
out correctly, making a start and finish position and a series of points and pickups to attach
the twine to. The hole must be cut so that when you start sewing you can continue from
start to finish without stopping (other than to load an empty needle).
You may see experienced net menders cutting sections as they go but it is wise for a
beginner to cut all the required points and pickups before sewing. This ensures you have cut
correctly from top to bottom of the hole.
Step 1
Step 2
Step 3
Step 4
Step 5
First make sure you know which way the net is
running. The hole needs to be mended across
ways and vertically, in the direction the net is
running.
If you can, spread the net out or hang it with
a hanging support instrument so that you are
able to get a clear look at the area that you
are cutting.
The hole to be mended will have a top and a
bottom.
Pick which end of the hole you want as a start
point making sure it is line with the direction
you have decided the net is running.
The start point is a three sided bar that is
sometimes called a three legger. Cut one of
these along the top row of the hole.
Remember - position B is not a three-sided bar. Two of the bars must be in line and the
third at right angles to those two bars.
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Once you have prepared a start
position you simply have to cut
meshes and points all the way
down to the bottom row of the
hole. Cut down one side of the
hole until you have gone as far
as you can, then go back to the
start position and cut down the
other side.
You should then have a threesided bar at the bottom of the
hole that is the same as that at
the start position. This
becomes the finish position.
If you do not have a threelegger at the bottom, you have
miss-cut down one of the sides.
Go back and check.
Double-check the cutting out.
There must be a three-sided bar
along the top row of the hole,
points and meshes only from there
on, ending in a three-sided bar
along the bottom row of the hole.
Remember - two bars joined together at an angle make a point or mesh. They are allowed.
Two bars running in the same direction at the edge of a hole are not allowed.
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Tidying up the meshes
Before you begin sewing, it is usual to tidy up the meshes that you can without them falling
apart. While it is not absolutely critical to follow this process, it makes for a less bulky,
much tidier repair job and shows professionalism.
The sides cannot be tidied because they would come apart; however, all the meshes or
pickups can. Use the tip of a sharp knife to carefully cut the piece of twine making up the
part that can be discarded.
Be careful not to cut through the twine making up the pickup or mesh you want to retain.
And be careful not to cut a finger. This can be a fiddly job.
You are now ready to begin sewing.
Sewing the hole
Loading the needle
Before you begin sewing you must first load a needle with twine
Step 1
Step 2
Step 3
Step 4
Select a needle that will fit through the size mesh you are repairing, making
sure that it will fit with a reasonable amount of twine loaded on it. You do not
want to be reloading the needle continuously.
Select twine of the same type and thickness as the twine in the part of the net
that is being mended.
Tie two half turns around the start position, which is at the base of the needle
but will vary slightly in design, depending on the style of needle used.
Wrap the twine, end for end, in the tongues provided until you have a good
amount of twine, again checking that the loaded needle will go through the
meshes.
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Starting
Before you begin sewing make sure you are in a comfortable position, preferably hanging
the net at a working height. If you do not have anywhere to hang a support, lay it out on
the ground in a position that you can see the hole clearly. Some net menders use their toes
to stretch some of the meshes out. Do what feels most comfortable to you.
Step 1
Step 2
Step 3
Step 4
Step 5
Step 6
Step 7
Step 8
Remember
The netting around the hole must be square,
i.e. the knots in each row are in line. This will
make it much easier to sew the correct size
meshes back into the hole.
The starting point must be at the top if the
netting is suspended or away from you if you
are sitting on the ground.
Now go to your start point and in the middle
of the three-legger tie the starting knot, a
double sheet bend.
Make sure you tie the double sheet bend
around two lengths of twine (or bars).
Proceed to the nearest point or pickup. If it is
a pickup make a half mesh loop (in effect the
length of two bars) and tie a single sheet
bend.
Ensure you go up through the hole when
working to the right and down through the
hole if working to the left. If you are left
handed, reverse the procedure.
If it is a point (or side cut), make a bar and tie
the appropriate side knot. Again tie the side
knot in a way that the twine comes out in the
direction you are sewing that row.
Continue back and forth across the hole,
making half meshes with a single sheet bend
to secure it to the mesh above and side knots
at each side.
When you get to a side knot on either side, check that there is not a pickup below that
needs to be attached before continuing across.
When you are attaching to pickups and sewing half meshes, the meshes must be of
equal size. There is a technique using your fingers for doing this. Study the diagrams
below - however, you should observe an experienced net mender to see how it is done.
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Finishing the hole
Once you get to the bottom
row, sew along to the
finishing three-legger and
make a double sheet bend
as you did at the start.
You have now mended
your first hole.
Do not be too concerned at
the different size meshes.
That comes with practice.
Most importantly though,
check your work to make
sure all the meshes have
four sides.
Remember
Meshes do not have three
or five sides.
Putting in a patch
If the area to be mended is large or torn at different angles, it is often better to cut out a
larger section and sew a piece of the same material back in. This saves the time taken to
sew a large number of meshes and is a very neat and tidy way to repair a big hole.
The principles are nearly identical to mending except for a slight variation at the start.
Cutting out for a patch
Step 1
Take the area to be mended, check which way the net runs, and make the top
left hand corner the start position.
Note - the only variation to normal mending is at the start position, so cut a pickup to make
a mesh to begin. The reason will become clear as the sewing is explained.
Step 2
Step 3
Step 4
Step 5
Step 6
Step 7
Make sure you start at the highest point, i.e. along the top row.
Working to your right, cut pickups/meshes all the way across the hole until
you reach a point where you can turn at right angles, then cut down and be to
the right of any damaged piece of net.
Once you have reached this point, cut points all the way down with the run of
net until you are again able to turn at right angles, and this time, be below any
damaged piece of net.
Cut pickups/meshes all the way across the bottom of the damaged section
until you are in line vertically with the start mesh.
Now cut vertically upwards with the run of net until you are at the start point.
If you have cut correctly you will have a nice square or rectangle hole with
pickups/meshes and points all the way around the perimeter of the hole.
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Sewing in a patch
Step 1
Step 2
Step 3
Step 4
Step 5
Step 6
Step 7
Step 8
Step 9
Step 10
To sew in a patch, first count the meshes across the top and the points down
one side of the hole you have cut out.
Then get a piece of identical netting, making sure it is at least as many
meshes across and down as the cut out hole. Cut meshes along the top in a
straight row.
Make sure you check that the piece you select is the correct size, with the
meshes running in the same direction as the net.
Now go to the top left hand mesh and using a loaded needle, start with the
normal knot, a double sheet bend.
Then pick up the patch piece you have selected and make a bar from the start
point to the top left hand mesh of the patch and do a normal sheet bend. What
you have in fact done, is made a three-sided bar or three-legger and this also
becomes your finish point.
Sew back up to the second mesh on the main piece of netting making a bar
and back down to the patch piece again. Continue this procedure all the way
across the top until you come to the right hand top corner.
Now change direction, cut out excess meshes down the side of the patch piece
and zig zag down from the main piece of netting to the patch, joining them
with side knots.
When you reach the bottom right corner, again cut any excess meshes along
the bottom of the patch piece and sew back to the left along the bottom as
you did along the top, joining the patch piece to the main piece of netting.
Similarly when you get to the bottom left corner, sew up the left side as you
did on the right side.
When you reach the top left corner again, finish on the three-legger you made
at the start, tying a double sheet bend.
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Strengthening, joining and hanging netting
Strengthening net
The sections of net that are attached to a head line or foot line are generally strengthened
so that the meshes will not tear as easily. The area strengthened is called the selvedge.
Doubling the twine along these sections is the usual method to strengthen it.
When selvedging or sewing, it is important that the selvedge twine is the same length as
the mesh, bar or taper that it is strengthening.
When selvedging along bars, side knots are used.
When selvedging meshes a sheet bend is generally used.
Joining net
Joining net is common when assembling the various sections of net that are cut to make a
complete net. Attaching a cod end to the main net is another common joining task.
It is a simple process, unless joining uneven mesh sizes or tapers that have been cut along
the edge of a section of netting. Leave these tasks until you have mastered simple joining
and mending and patching holes.
Joining two identical pieces of net with meshes on both edges to be joined is simply a
matter of zig zagging up and down or from side to side as you did when putting in a patch.
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Hanging net
The aim of hanging net to a line such as a foot line or head line is to:
attach it to a strong piece of wire or rope so that the shape of the net can be controlled
and be attached to trawl doors, etc
to ensure even tension is spread throughout the net
Nets are hung in ratios determined by the net designer so that they will take the shape
required. The hanging ratio is often expressed as a number of meshes hung on the length of
stretched meshes. For example, hanging four meshes on the length of two stretched
meshes would give a hanging ratio of 50% or a half. So if you are hanging 50 mm meshes
in this ratio, you would measure 100 mm and hang four meshes in this distance.
When hanging bar cut material, it is usual to hang it bar tight. That is, the net is hung into
the same distance as its own length. So using 50 mm mesh netting again as an example,
each bar is half of this, or 25 mm, so you would hang each bar in a 25 mm distance.
When hanging, there are a number of knots used to attach the netting to the hanging line.
A common method is to go through or pick up a number of meshes or bars and then tie a
rolling hitch to the hanging line, then pick up the same number again and tie a rolling hitch
at the same distance and so on. A clove hitch combined with a half hitch is another common
hanging knot.
Marking the line at the required hanging ratio is preferable, using a measuring stick to mark
the hanging line at the distance you are going to tie the hanging twine to it. Get a long
straight stick, mark it at the distance apart decided all the way along the stick, then lay this
alongside the hanging line and mark the line with a marker.
The hanging material cannot stretch or shrink, holds the hanging knot well and is strong
and durable. Heavy braided twines are often used.
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